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Issue Paper
21 & 22 November OECD, Paris
2 0 1 7#GGSDForum
Greening the Ocean Economy
A preliminary assessment of indicators for SDG 14 on “Oceans”
Dr. Laura Recuero Virto Ministry of Foreign Affairs
and International Development, France
Part of OECD Ocean Economy Week
2
OECD Green Growth and Sustainable Development Forum The GGSD Forum is an OECD initiative aimed at providing a dedicated space for multi-disciplinary dialogue on green growth and sustainable development. It brings together experts from different policy fields and disciplines and provides them with an interactive platform to encourage discussion, facilitate the exchange of knowledge and harness potential synergies. By specifically addressing the horizontal, multi-disciplinary aspects of green growth and sustainable development, the GGSD Forum constitutes a valuable supplement to the work undertaken in individual government ministries. The GGSD Forum also enables knowledge gaps to be identified and facilitates the design of new works streams to address them.
Authorship and acknowledgements This issue note was prepared for the 2017 GGSD Forum on Greening the Ocean Economy to steer discussions during the conference, in particular around the theme of Parallel Session A: “Monitoring progress of the SDG 14 implementation”. This issue note was prepared by Dr. Laura Recuero Virto (French Ministry of Foreign Affairs and International Development). It was produced under the supervision of Kumi Kitamori, Head, Green Growth and Global relation Division, the OECD Environment Directorate. It benefitted from OECD staff contributions including comments from Jaco Tavenier, Katia Karousakis, Myriam Linster, Ivan Haščič, Frank Jesus, Roger Martini, Antonia Leroy, Claire Jolly, Nora Takrouri-Jolly, Bob Diderich, Takahiro Hasegawa, Gérard Bonnis, Laurent Daniel, Olaf Merk, Renske Schuitmaker, Claire Delpeuch, Fabiana Cerasa, Catherine Gamper, Xavier Leflaive and Sébastien Miroudot, with editorial guidance by Jaco Tavenier and Dulika Rathnayake of the OECD Environment Directorate. It benefitted also from external experts’ comments including Anne-France Didier, Fred Vey, Claire Plateau, Yves Henocque, Elisabetta Bonotto, Wendy Watson-Wright, Roland Cormier, Mike Elliot, Martin Visbeck, Mark Dickey-Collas, Jean-Louis Weber, Philippe Cury, Didier Gascuel, Alain Bisseau, Yann Kervinio, Victor Raynaud, Catherine Piante and David Le Blanc. The OECD designed the cover page. The opinions expressed herein do not necessarily reflect the official views of the OECD member states.
3
Table of Contents
Abbreviations .......................................................................................................................................... 4
Executive summary ................................................................................................................................. 5
1.The rationale for the SDG indicators with a special focus on SDG 14 ............................................. 7 1.1 The 2030 Agenda for Sustainable Development and the SDG indicators ................................ 7 1.2 The policy relevance of the SDG 14 ......................................................................................... 7
Table 1. SDG 14 targets ............................................................................................................. 10 Table 2. SDG 14 examples of indicators for SDG 14 ................................................................. 11
2. The SDG 14 indicators: examples, frameworks and concepts ...................................................... 13 2.1 Effective SDG 14 monitoring and implementation through SMART SDG 14 targets ............. 13 2.2 Conceptual frameworks: different ways to look at the marine context ................................ 13 2.3 The multidimensionality of the SDG 14 indicators ................................................................ 14
Table 3. Expected synergies between some key MEAs and SDG 14 targets ............................ 15 Table 4. Synergies between indicators: CBD Aichi Biodiversity targets and SDG 14 targets .... 16
3. Preliminary indicators for SDG 14 ................................................................................................. 17 3.1. Examples of Indicators ........................................................................................................... 18
4. Possible areas for future OECD work relevant to SDG 14 indicators ............................................ 23 Table 5. SDG 14 and examples of relevant OECD work on data and indicators ....................... 24
References ............................................................................................................................................ 28
Annexes………………………………………………………………………………………………………………Available online only
4
Abbreviations
CBD Convention on Biological Diversity DAC Development Assistance Committee DPSIR Driver-Pressure-State-Impact-Response FAO Food and Agriculture Organization FSE Fisheries Support Estimate HELCOM Baltic Marine Environment Protection Commission IAEG-SDGs Inter-Agency and Expert Group on SDG indicators ICM Integrated Coastal Management IUCN International Union for Conservation of Nature IUU Illegal, unreported and unregulated LDCs Least Developed Countries MDGs Millennium Development Goals MEAs Multilateral Environmental Agreements MPAs Marine Protected Areas MSP Marine Spartial Planning OECD Organisation for Economic Co-operation and Development PCSD Policy Coherence for Sustainable Development PSMA Port State Measures Agreement SDGs Sustainable Development Goals SEEA System of Environmental-Economic Accounting SIDS Small Island Developing States UN United Nations UNCEEA United Nations Committee of Experts on Environmental-Economic Accounting UNGA UNEP UNEP-WCMC
United Nations General Assembly United Nations Environment Programme United Nations Environment World Conservation Monitoring Centre
5
Executive summary
‘Tackling the Challenges of Sustainable Development Goal (SDG) Monitoring’ is an important topic of which at different levels of government actors are facing many challenges. Hence, this Issue paper focuses on indicators for the SDG 14 on oceans, seas and marine resources, which consists of 10 individual targets. The paper describes the nature of these SDG 14 indicators and provides an overview of the factors that have an impact on the effectiveness of monitoring the SDG 14 targets. It reviews the existing framework for the SDG 14 indicators including uncertainty, irreversibility and thresholds in the marine context, and transboundary and terrestrial-marine spatial considerations at the regional and national levels. It examines potential synergies with Multilateral Environmental Agreements (MEAs) indicators, the role of big data, links among the SDG 14 targets and between SDG 14 and other SDGs targets. It touches upon the indicative correspondences of SDG 14 indicators to the United Nations (UN) System of Environmental-Economic Accounting (SEEA) definitions.
In addition, the preliminary indicators for the SDG 14 at the UN level proposed by the Inter-Agency and Expert Group on SDG indicators (IAEG-SDGs) are discussed. Some (non-exhaustive) indicators at the regional and national levels are also explored. This issue paper reviews the framework for the SDG 14 indicators, highlights existing gaps in the indicator set and proposes possible indicators that could be developed.
As a result of this analysis, some areas that could be considered for future work at the OECD in the framework of SDG 14 indicators are suggested. The paper concludes with four suggestions for further work:
(1) Contributing to SDG 14 through OECD’s work on measurement and indicators
The OECD has developed harmonised indicators on the extent of marine protected areas (MPAs), broken down by management categories set by International Union for Conservation of Nature (IUCN), drawing on the work of UN Environment World Conservation Monitoring Centre (UNEP-WCMC) (OECD, 2017a). The OECD database on Policy Instruments for the Environment PINE (oe.cd/pine) already includes some ocean/marine-related policy instruments and could be further developed. For example, the PINE database could be expanded to include policy instruments such as payments for ecosystem services (also relevant to the marine environment). The OECD also regularly updates the Fisheries Support Estimate (FSE) database. (2) Developing innovative approaches to SDG 14 data collection
A growing number of non-traditional sources of data concerning the ocean is becoming available, thanks to progress in data analytics. Technologies like blockchain which facilitates secure online transactions show promises of tracing fish from the boat to the supermarket. Real-time data from vessel transponders and satellite imagery can help spot illegal fishing and enable law enforcement. Drones may offer timely data on ocean conditions and fish stocks at a small fraction of the existing costs. The OECD could contribute to identifying and assessing, with relevant public and private stakeholders, using promising data sources that have been underutilized so far in producing official statistics.
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(3) Fostering common approaches to valuing marine ecosystem services and national accounting to implement SDG 14
The OECD can promote and share lessons on various policy instruments available to conserve and sustainably use the oceans. The recent work undertaken by the OECD on the costs and benefits of MPAs could be expanded to other policy instruments (such as Marine Spatial Planning (MSP), individual transferable quotas for fisheries. The OECD could also foster common approaches, methodologies and sharing of best practices in areas such as the valuation of marine ecosystem services and integration of marine and maritime activities into national accounts. As part of this work, the OECD is convening a workshop on new approaches to evaluating the ocean economy on 22-23 November 2017.
(4) Providing incentives for best practice and peer-learning on SDG 14 indicators
The SDG indicators can be used to undertake a review process that takes stock of progress and provides incentives for best practice and peer learning (SDSN, 2015a). In line with its action plan on SDGs, the OECD continues to contribute to the development and enhancement of the UN-led Global Indicator Framework for SDGs. This is done by drawing on existing OECD expertise and helping to close data gaps by developing methodologies and capacities in support of the internationally agreed SDG monitoring and evaluation initiatives. In this regard the OECD can provide further incentives for best practice and peer learning on SDG 14 indicators. https://www.oecd.org/dac/Better%20Policies%20for%202030.pdf
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1. The rationale for the SDG indicators with a special focus on SDG 14 1.1 The 2030 Agenda for Sustainable Development and the SDG indicators On September 25, 2015 the 193 Member States of the United Nations General Assembly (UNGA) adopted the 2030 Agenda for Sustainable Development. The 2030 Agenda is the world’s first global agreement to provide a comprehensive agenda for action, to support transformations towards social, economical and environmental sustainability (Unger et al. 2017). Its 17 Sustainable Development Goals (SDGs) and 169 targets will guide the activities of diverse actors over the coming years (UN, 2015a).1 The SDGs are intended to address sustainable development processes in both developed and developing countries, in order to facilitate action at all levels and with all actors including governments, civil society, private sector, science community and to strengthen the capacity of the State to achieve the desired outcomes (Houghton, 2014). Among its 17 SDGs, SDG 14 on oceans will guide the activities of various actors on “conserving and sustainably using the oceans, seas and marine resources for sustainable development”. The oceans provide services that are of direct economic importance, contribute to well-being and is a critical component of the life support systems. The oceans are, however, subject to pressures such as over-exploitation of marine resources, pollution and climate change that compromises their ability to deliver these services. A robust follow-up and review mechanism for the implementation of the 2030 Agenda requires a solid framework of indicators to monitor progress, inform policy and ensure accountability of all the stakeholders. The IAEG-SDG on indicators proposed a global indicator framework that the UNGA adopted in March 2016 and revised in March 2017 to track progress at the global level and for collective action towards achieving the 17 SDGs (UN, 2016a; 2017a). The United Nations Statistical Commission agreed at its 48th session that this global indicator framework would include annual refinements of the indicators and two comprehensive revisions in 2020 and 2025 (UNSC, 2017a). Global monitoring should be based, to the greatest possible extent, on comparable and standardised national data obtained through well-established reporting mechanisms from countries to the international statistical system (UN, 2016a). To complement the set of global indicators, Member States should develop more detailed indicators at the regional and national levels to track success at those scales (UNSC, 2017a). Member States could set regional and national review timelines and processes according to local needs and could report the outcomes of these reviews to the UN’s annual High-Level Political Forum on Sustainable Development (SDSN, 2015a).
1.2 The policy relevance of the SDG 14 The oceans provide goods and services that are of direct economic relevance for sectors such as fisheries, aquaculture, offshore oil and gas, shipping, tourism and offshore wind energy (Visbeck et al., 2014). The oceans economy’s value stands at USD 1.5 trillion in 2010 (or 2.5% of the world gross value added) and is projected to double its contribution by 2030, with the fastest growth in offshore wind energy, marine aquaculture, fish processing and port activities (OECD, 2016a). More broadly, coastal areas within 100 kilometres off the oceans account for 61% of the global gross national 1 The SDGs build and expand on the Millennium Development Goals (MDGs), a global-goal setting process with a series of time-bound and quantified targets for the period 2000-2015. See annex 1 on how MDGs contribute to SDG 14.
8
product (UNEP, 2006). The oceans accounted for 31 million direct full-time jobs in 2010, mainly in industrial capture fisheries and tourism (OECD, 2016a). Moreover, 350 million jobs are linked to the oceans through fishing, aquaculture, tourism and research (UNCTAD, 2014). Aggregate income figures do not adequately reflect how the oceans contribute to well-being, particularly at the local level through food security, nutrition and income, as sources of poverty alleviation and livelihood opportunities (Mills et al., 2011). Regarding human health, 4.3 billion people obtain about 15% of their intake of animal protein through fish consumption and about one billion people depend on fish for their primary source of protein (FAO, 2000; UNDESA, 2014). Fisheries and aquaculture assure the livelihoods of 10-12% of the world’s population with over 90% of those employed by capture fisheries working in small-scale operations in developing countries (FAO, 2014). These services are particularly relevant for 54 coastal and island countries, the majority of which are developing nations, given that the oceans constitute up to two thirds of their total national territory (Islam, 2015). The oceans are an essential life support system of the Earth (Rockström et al., 2009; UNCSD, 2012). They provide ecosystem services including water filtration, coastal protection, biodiversity provisioning, nutrient cycling, carbon sequestration and recreational areas for tourism (OECD, 2017a). These have been estimated to be worth approximately USD 250 000 billion per year (Nelleman et al., 2009). The oceans, for example, are the primary regulator of the global climate, recycling over 93% of the carbon dioxide and absorbing about 30% that humans produce (IOC/UNESCO, IMO, FAO, UNDP, 2011). In addition, the oceans have absorbed 90% of the energy from the warming of the Earth in the last few decades (Turley et al., 2013) and provide us with half of the oxygen we breathe (UNCSD, 2012). While ensuring healthy and productive oceans is vital for achieving sustainable development, pressures from human activities are compromising the ability of the oceans to continue to deliver economic, social and environmental benefits (UNCSD, 2012). Key pressures include over-fishing and over-exploitation of marine resources, pollution, invasive alien species, habitat destruction and climate change (UNDESA, 2014; OECD, 2017a). For instance, 85% of the world’s fisheries are fully exploited or overexploited, depleted or recovering from depletion (FAO, 2016). Overfishing has resulted in lost benefits to fishing nations of roughly USD 50 billion per year (World Bank and FAO, 2009).2 The global value of catch from Illegal, Unregulated and Unreported (IUU) fishing has doubled between 2004 and 2011, resulting in losses of between USD 10-23 billion per year (Pew Environmental Group, 2011; UNCSD, 2012).
When it comes to pollution of the oceans, 80% comes from land-based sources (Diaz and Rosenberg, 2008). Marine pollution mainly results from direct discharge, land run-off, ship pollution, atmospheric pollution and deep sea mining (OECD, 2017a). Moreover, up to 80% of all litter in our oceans is made of plastic. By 2050, oceans will carry more plastic than fish and an estimated 99% of seabirds will have ingested plastic (UNEP and GRID-Arendal, 2016). Excess nutrients lead to eutrophication, which, if left unchecked, can lead to hypoxic dead zones which have increased 10
2 For the base year, 2004, the 95% confidence interval for the lost economic benefits in the global marine fishery was found to be between USD 26 billion and USD 72 billion, with the most likely estimate to be on the order of USD 50 billion. This estimate does not take account of several important factors and is thus a conservative estimate of the potential losses.
9
fold between 1969 and 2010 (UNCSD, 2012). Invasive alien species are introduced to different habitats through ballast water from commercial shipping, also resulting in adverse impacts on marine industries as well as human health (OECD, 2017a). For instance, 7000 marine species are carried around the world in ballast water every day (WWF, 2009). There are invasive alien species in 80% of the world’s 232 marine ecoregions (IOC/UNESCO, IMO, FAO, UNDP, 2011).
Habitat destruction along the coast and in the oceans results from harmful fishing practices, poor agricultural practices, coastal development, forestry sectors, mining, dredging and anchoring, and tourism (OECD, 2017a). Such destruction significantly compromises or eliminates the conditions necessary for plants and animals to survive.
With the absorption of the carbon dioxide from the atmosphere the oceans are also becoming increasingly acidic at a rate that is 10 times faster nowadays than in the last 65 million years leading to decreased survival, calcification, growth, development and abundance of marine organisms (Noone et al., 2012; Kroeker et al., 2013). The negative effects of climate change also includes increased frequency, intensity of weather and climate extremes, ocean warming, sea-level rise, as well as changes in ocean circulation and salinity (UNDESA, 2014).
The adverse impacts of climate change on the oceans by 2100 are estimated to cost between USD 600 million and USD 2 trillion (Noone et al., 2012). Climate change is threatening the survival and well-being of Small Island Developing States (SIDS) and coastal communities in developing countries (Cicin-Sain et al., 2011). For instance, increase in frequency and intensity of extreme events such as hurricanes and floods due to climate change, will further increase the damage already in excess of 20% of the gross domestic product in many SIDS (Payet, 2008).
To summarise, the SDG 14 targets cover the aforementioned anthropegenic pressures on the marine environment (targets 14.1–14.6, 14.a and 14.c) as well as the SIDS and coastal communities which are particularly dependent on the oceans and are thus impacted by the negative socioeconomic impacts (targets 14.3, 14.6, 14.7, 14.a and 14.b) (Table 1). The interlinkages amongst the SDG 14 targets, between SDG 14 and other SDGs targets are summarised in Annex 3.
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Table 1. SDG 14 targets
SDG 14 targets
14.1 By 2025, prevent and significantly reduce marine pollution of all kinds, in particular from land-based activities, including marine debris and nutrient pollution
14.2 By 2020, sustainably manage and protect marine and coastal ecosystems to avoid significant adverse impacts, including by strengthening their resilience, and take action for their restoration in order to achieve healthy and productive oceans
14.3 Minimize and address the impacts of ocean acidification, including through enhanced scientific cooperation at all levels
14.4 By 2020, effectively regulate harvesting and end overfishing, illegal, unreported and unregulated fishing and destructive fishing practices and implement science-based management plans, in order to restore fish stocks in the shortest time feasible, at least to levels that can produce maximum sustainable yield as determined by their biological characteristics
14.5 By 2020, conserve at least 10 per cent of coastal and marine areas, consistent with national and international law and based on the best available scientific information
14.6 By 2020, prohibit certain forms of fisheries subsidies which contribute to overcapacity and overfishing, eliminate subsidies that contribute to illegal, unreported and unregulated fishing and refrain from introducing new such subsidies, recognizing that appropriate and effective special and differential treatment for developing and least developed countries should be an integral part of the World Trade Organization fisheries subsidies negotiation3
14.7 By 2030, increase the economic benefits to small island developing States and least developed countries from the sustainable use of marine resources, including through sustainable management of fisheries, aquaculture and tourism
14.a Increase scientific knowledge, develop research capacity and transfer marine technology, taking into account the Intergovernmental Oceanographic Commission Criteria and Guidelines on the Transfer of Marine Technology, in order to improve ocean health and to enhance the contribution of marine biodiversity to the development of developing countries, in particular small island developing States and least developed countries
14.b Provide access for small-scale artisanal fishers to marine resources and markets
14.c Enhance the conservation and sustainable use of oceans and their resources by implementing international law as reflected in the United Nations Convention on the Law of the Sea, which provides the legal framework for the conservation and sustainable use of oceans and their resources, as recalled in paragraph 158 of “The future we want”
Source: UN (2015a).
3 Taking into account ongoing World Trade Organization negotiations, the Doha Development Agenda and the Hong Kong ministerial mandate.
11
Tabl
e 2.
SDG
14
exam
ples
of i
ndic
ator
s fo
r SDG
14
Ta
rget
G
loba
l ind
icat
or
Sour
ce
Avai
labi
lity
Disa
ggre
gatio
n Ty
pe
14.1
14
.1.1
Inde
x of
coa
stal
eut
roph
icat
ion
(i)
and
float
ing
plas
tic d
ebris
den
sity
(ii)
MEA
– U
nite
d N
atio
ns E
nviro
nmen
t Pro
gram
me
in
co-o
pera
tion
with
Inte
rgov
ernm
enta
l O
cean
ogra
phic
Com
miss
ion
From
202
1 N
atio
nal
Stat
e(i)
Pres
sure
(ii)
14.2
14
.2.1
Pro
port
ion
of n
atio
nal e
xclu
sive
econ
omic
zone
s man
aged
usin
g ec
osys
tem
-bas
ed a
ppro
ache
s
MEA
- U
nite
d N
atio
ns E
nviro
nmen
t Pro
gram
me
in
co-o
pera
tion
with
Inte
rgov
ernm
enta
l O
cean
ogra
phic
Com
miss
ion
From
202
1 N
atio
nal
Resp
onse
14.3
14
.3.1
Ave
rage
mar
ine
acid
ity (p
H)
mea
sure
d at
agr
eed
suite
of
repr
esen
tativ
e sa
mpl
ing
stat
ions
MEA
– In
terg
over
nmen
tal O
cean
ogra
phic
Co
mm
issio
n in
co
-ope
ratio
n w
ith U
nite
d N
atio
ns E
nviro
nmen
t Pr
ogra
mm
e
Afte
r 202
0 Gl
obal
, reg
iona
l St
ate
14.4
14
.4.1
Pro
port
ion
of fi
sh st
ocks
with
in
biol
ogic
ally
sust
aina
ble
leve
ls*
MEA
– F
ood
and
Agric
ultu
re O
rgan
isatio
n***
19
74 -
2013
Gl
obal
St
ate
14.5
14
.5.1
Cov
erag
e of
pro
tect
ed a
reas
in
rela
tion
to m
arin
e ar
eas
MEA
- U
nite
d N
atio
ns E
nviro
nmen
t Pro
gram
me’
s W
orld
Con
serv
atio
n M
onito
ring
Cent
re, B
irdLi
fe
Inde
x, In
tern
atio
nal U
nion
for C
onse
rvat
ion
of
Nat
ure*
**
2000
- 20
17
Nat
iona
l Re
spon
se
14.6
14
.6.1
Pro
gres
s by
coun
trie
s in
the
degr
ee
of im
plem
enta
tion
of in
tern
atio
nal
inst
rum
ents
aim
ing
to c
omba
t ille
gal,
unre
port
ed a
nd u
nreg
ulat
ed fi
shin
g
MEA
- Fo
od a
nd A
gric
ultu
re O
rgan
isatio
n Af
ter 2
017
Nat
iona
l Re
spon
se
14.7
14
.7.1
Sus
tain
able
fish
erie
s as a
pr
opor
tion
of g
ross
dom
estic
pro
duct
in
smal
l isla
nd d
evel
opin
g St
ates
, lea
st
deve
lope
d co
untr
ies a
nd a
ll co
untr
ies*
*
Food
and
Agr
icul
ture
Org
anisa
tion
No
set d
ate
Nat
iona
l St
ate
14.a
14
.a.1
Pro
port
ion
of to
tal r
esea
rch
budg
et
allo
cate
d to
rese
arch
in th
e fie
ld o
f mar
ine
tech
nolo
gy
Inte
rgov
ernm
enta
l Oce
anog
raph
ic C
omm
issio
n in
co
-ope
ratio
n w
ith U
nite
d N
atio
ns E
nviro
nmen
t Pr
ogra
mm
e
From
201
8 N
atio
nal
Resp
onse
12
14.b
14
.b.1
Pro
gres
s by
coun
trie
s in
the
degr
ee
of a
pplic
atio
n of
a
lega
l/reg
ulat
ory/
polic
y/in
stitu
tiona
l fr
amew
ork
whi
ch re
cogn
izes a
nd p
rote
cts
acce
ss ri
ghts
for s
mal
l-sca
le fi
sher
ies
MEA
- Fo
od a
nd A
gric
ultu
re O
rgan
isatio
n Fr
om 2
016
Nat
iona
l Re
spon
se
14.c
14
.c.1
Num
ber o
f cou
ntrie
s mak
ing
prog
ress
in ra
tifyi
ng, a
ccep
ting
and
impl
emen
ting
thro
ugh
lega
l, po
licy
and
inst
itutio
nal f
ram
ewor
ks, o
cean
-rel
ated
in
stru
men
ts th
at im
plem
ent i
nter
natio
nal
law
, as r
efle
cted
in th
e U
nite
d N
atio
n Co
nven
tion
on th
e La
w o
f the
Sea
, for
the
cons
erva
tion
and
sust
aina
ble
use
of th
e oc
eans
and
thei
r res
ourc
es
Uni
ted
Nat
ions
Div
ision
for O
cean
Affa
irs a
nd th
e La
w o
f the
Sea
, Offi
ce fo
r Leg
al A
ffairs
N
o se
t dat
e N
atio
nal
Resp
onse
Not
es: T
he IA
EG-S
DGs
will
revi
se th
is lis
t of i
ndic
ator
s in
202
0. T
he a
cron
ym “
MEA
” in
the
data
sou
rces
sig
nals
that
the
SDG
14
indi
cato
rs a
re a
lso u
sed
for
repo
rtin
g in
at l
east
one
key
MEA
. The
type
is d
efin
ed a
ccor
ding
to th
e DP
SIR
fram
ewor
k. *
: “IU
U fi
shin
g” is
a p
ossib
le a
dditi
onal
indi
cato
r (U
NSC
, 201
7a).
**: “
The
econ
omic
impa
ct o
f sus
tain
able
fish
erie
s, a
quac
ultu
re, t
ouris
m a
nd o
ther
coa
stal
and
mar
ine
reso
urce
s use
s” a
nd “
the
prod
uctiv
ity o
f aqu
acul
ture
” ar
e po
ssib
le a
dditi
onal
indi
cato
rs (U
NSC
, 201
7a).
***:
Dat
a av
aila
ble
at: h
ttps
://u
nsta
ts.u
n.or
g/sd
gs/in
dica
tors
/dat
abas
e/.
Sour
ce: I
AEG-
SDG
(201
6) a
nd U
NSC
(201
7a; 2
017b
; 201
7c).
13
2. The SDG 14 indicators: examples, frameworks and concepts
2.1 Effective SDG 14 monitoring and implementation through SMART SDG 14 targets Effective monitoring and evaluation of SDG 14 requires SMART SDG 14 targets (Specific, Measurable, Attainable, Relevant [for all countries], and Time-bound) (OECD, 2015b). While some of the targets are fairly SMART (e.g. 14.5) with clear quantitative targets, others such as targets 14.1, 14.2, 14.3, 14.7 and 14.b are less so. For instance, target 14.3 could have been reformulated to “ensure that the pH level of the uppermost ocean layer does not fall by more than 0.2 units compared to pre-industrial figures” (Loewe and Rippin, 2015). Targets 14.3, 14.4 and 14.b would need to be time bound to be concrete (Loewe and Rippin, 2015). In practice, it appears that the IAEG-SDGs chose starting points for individual SDG 14 targets as being “here and now”, without taking a scientifically verifiable baseline into account (Houghton, 2014). Most SDG 14 targets are not measurable in quantitative terms because the data is not yet available, particularly at the global level (section 3). According to the OECD (2015b), among the outcome targets, only target 14.5 is quantifiable, while targets 14.1, 14.3 and 14.7 are partly quantifiable. Target 14.2, in particular, involves the measurement of a poorly quantifiable subject. In addition, some of the targets are not sufficiently ambitious. For example, ICSU, ISSC (2015) and Loewe and Rippin (2015) argue that the IAEG-SDGs could have reformulated target 14.5 to “conserve at least 20-30% of the area of marine ecosystems through an ecologically representative and effectively managed system of marine protection areas and halt by 2050, the anthropogenic drivers of biodiversity loss”. Targets 14.3 and 14.b would require clarification of the institutional framework within which, action would take place (Houghton, 2014).
2.2 Conceptual frameworks: different ways to look at the marine context For policy relevance, the key issue is the policy question that an indicator seeks to answer (OECD, 1993; UNECE, 2017). The focus of countries in establishing indicator sets has generally been to meet the information needs of a national sustainable development strategy, without being based on an explicitly defined conceptual framework (UNECE, 2009). Where expressed explicitly, the framework may be based on the Pressure-State-Response approach developed by the OECD as well as the Driver-Pressure-State-Impact-Response (DPSIR) approach which makes all the components of the Pressure-State-Response model apparent. The DSPIR approach was adopted by the United Nations Development Programme in 1997 and is used by European Environmental Agency (OECD, 1993; UNECE, 2009).The DPSIR framework is consistent with the ecosystem approach in the marine context and can be applied to SDG 14 (Weber, 2010; de Jonge et al., 2012; Cooper et al., 2013; Loewe and Rippin, 2015).4 These frameworks should integrate the multiple activities in a marine area and the continuum between adjacent ecosystems (Elliott et al., 2007).5 The complexity of the marine system will likely lead to a range of consequences, some of which will be unintended and
4 The Pressure-State-Response model was initially developed to assess ecosystems. This model and its derived versions are not fully appropriate for monitoring all sustainable development dimensions. The risk assessment framework of the Intergovernmental Oceanographic Commission, risk - exposure - vulnerability, would be equally useful in the SDG 14 discussion, with identification of the cluster of countries at risk (UNEP, 2014a). 5 Risk assessment and risk management frameworks to account for natural and anthropogenic hazards would complete a unifying framework for integrated marine management. Given the uncertainties and lack of data in human-ocean systems and internal ocean interactions, these analytical frameworks should be kept as simple as possible (MEEM, 2017).
14
others not apparent until some threshold state has been reached (Tett et al., 2013).6 The process of developing suitable SDG 14 indicators to measure the human-ocean system should be accompanied by the task of defining such safe minimum standards for interventions into the system (Visbeck et al., 2013). The capital-accounting approach is an alternative sustainable development indicator framework to the Pressure-State-Response approach (UNECE, 2009).7 Under the capital-accounting approach, sustainable development can be measured by determining whether the economy's productive capacity is maintained or growing so that the wealth of future generations will not decrease (Rickels et al., 2016). However, the role and value of the oceans for this productive capacity has not yet been appropriately considered (Visbeck et al., 2014). Under this approach, it is possible to define requirements on possible pathways for increasing economic activities in a sustainable way, in the same manner as the safe minimum standards (Visbeck et al., 2014). In addition, it is possible to interpret the SDG 14 indicators within a comprehensive framework that is compatible with macro-economic indicators and the budgeting process, i.e. the UN SEEA which provides formal definitions and guidance for measuring capital stocks. An analysis of the correspondence of individual SDG indicators and SEEA variables shows where synergies exist and should be considered for a cost effective implementation of both frameworks (Annex 2). 2.3 The multidimensionality of the SDG 14 indicators The transboundary and terrestrial-marine spatial considerations should be taken into account in order to ensure that the SDG 14 can be action-oriented (Houghton, 2014). The main spatial scales of intervention for each of the SDG 14 targets determine the most relevant geographical spans for the provision of indicators: subnational, national, transnational, regional or global (Annex 2, Table A2). There are different approaches to integrating these spatial considerations. For instance, the Global Water Partnership’s Mediterranean experience and guidelines for an “Integrative methodological framework for coastal, river basin and aquifer management” brings together the integrated water resources management (including surface water and groundwater management), spatial planning, climate change adaptation and integrated coastal management (ICM), instead of preparing them separately (UNEP/MAP - PAP/RAC et al., 2015). Further into the sea, MSP can also be a means for integrating these spatial considerations (Visbeck et al., 2013). 2.4. Potential synergies between Multilateral Environmental Agreements and SDG 14 indicators There are synergies between the SDG 14 targets and key MEAs such as the Convention on Biological Diversity (CBD) and its 20 Aichi targets as well as the Ramsar Convention on wetlands (Table 3) and their associated indicators. In addition also other agreements such as the Port State Measures
6 Ensuring sustainable development under uncertainty requires attributing sustainability criteria to current actions instead of attributing them to future unknown states (Baumgärtner and Quaas, 2010). For that reason, avoiding potential critical zones for certain actions can ensure safe minimum standards of conservation (Ciriacy-Wantrup, 1952). 7 A limitation of the Pressure-State-Response approach is that it does not work if evidence for causal linkages is missing. In addition, there may be multiple pressures for most states, and multiple states arising from pressures, which create difficulties in identifying indicators (Pintér et al., 2005).
15
Agreement (PSMA) and various Food and Agriculture Organization (FAO) standards of conduct are relevant.
Table 3. Expected synergies between some key MEAs and SDG 14 targets
MEAs SDG 14 target
Convention on Biological Diversity 14.1 14.2 14.3 14.4 14.5 14.6 14.7 14.a 14.b 14.c
Convention on Wetlands 14.1 14.2 14.3 14.5 14.7 14.b 14.c Convention on the Conservation of Migratory Species of Wild Animals
14.2 14.4 14.5
United Nations Framework Convention on Climate Change 14.2 Regional Seas Conventions and Action Plans 14.1 14.2 14.3 14.5 14.7 14.a 14.b 14.c Chemicals conventions (Basel Convention on the Control of Transboundary Movements of Hazardous Wastes and their Disposal, Rotterdam Convention on the Prior Informed Consent Procedure for Certain Hazardous Chemicals and Pesticides in International Trade, Stockholm Convention on Persistent Organic Pollutants and others)
14.1
Convention on International Trade in Endangered Species of Wild Flora and Fauna
14.2 14.4
Notes: This table displays a non-exhaustive list of MEAs. For instance, the Port State Measures Agreement (PSMA) and various FAO standards of conduct are also relevant. Source: Author’s elaboration based on UNEP (2016) and Ramsar (2017).
16
Tabl
e 4.
Syn
ergi
es b
etw
een
indi
cato
rs: C
BD A
ichi
Bio
dive
rsity
targ
ets a
nd S
DG 1
4 ta
rget
s
Aich
i Bio
dive
rsity
targ
et
Gen
eric
Aic
hi in
dica
tor
SDG
14
targ
et
Spec
ific
indi
cato
r
Targ
et 4
- By
202
0, a
t the
late
st, G
over
nmen
ts, b
usin
ess
and
stak
ehol
ders
at
all
leve
ls ha
ve t
aken
ste
ps t
o ac
hiev
e or
hav
e im
plem
ente
d pl
ans
for
sust
aina
ble
prod
uctio
n an
d co
nsum
ptio
n an
d ha
ve k
ept t
he im
pact
s of
use
of
natu
ral r
esou
rces
wel
l with
in sa
fe e
colo
gica
l lim
its.
Tren
ds in
pop
ulat
ion
and
extin
ctio
n ris
k of
util
ized
spec
ies i
nclu
ding
spec
ies i
n tr
ade
14.2
Pr
opor
tion
of n
atio
nal e
xclu
sive
econ
omic
zone
s man
aged
us
ing
ecos
yste
m-b
ased
app
roac
hes
Targ
et 6
- B
y 20
20 a
ll fis
h an
d in
vert
ebra
te s
tock
s an
d aq
uatic
pla
nts
are
man
aged
and
har
vest
ed s
usta
inab
ly,
lega
lly a
nd a
pply
ing
ecos
yste
m b
ased
ap
proa
ches
, so
that
ove
rfish
ing
is av
oide
d, r
ecov
ery
plan
s an
d m
easu
res
are
in p
lace
for a
ll de
plet
ed s
peci
es, f
isher
ies
have
no
signi
fican
t adv
erse
impa
cts
on t
hrea
tene
d sp
ecie
s an
d vu
lner
able
eco
syst
ems
and
the
impa
cts
of
fishe
ries o
n st
ocks
, spe
cies
and
eco
syst
ems a
re w
ithin
safe
eco
logi
cal l
imits
.
Tren
ds in
pro
port
ion
of fi
sh
stoc
ks o
utsid
e sa
fe
biol
ogic
al li
mits
14.4
Prop
ortio
n of
fish
stoc
ks w
ithin
bio
logi
cally
sust
aina
ble
leve
ls
Tren
ds in
fish
ing
prac
tices
14
.6
Prog
ress
by
coun
trie
s in
the
degr
ee o
f im
plem
enta
tion
of
inte
rnat
iona
l ins
trum
ents
aim
ing
to c
omba
t ille
gal,
unre
port
ed
and
unre
gula
ted
fishi
ng
Tren
ds in
cat
ch p
er u
nit
effo
rt
14.b
Pr
ogre
ss b
y co
untr
ies i
n th
e de
gree
of a
pplic
atio
n of
a le
gal
/reg
ulat
ory
/pol
icy/
inst
itutio
nal f
ram
ewor
k w
hich
reco
gnize
s an
d pr
otec
ts a
cces
s rig
hts f
or sm
all-s
cale
fish
erie
s Ta
rget
8 -
By
2020
, po
llutio
n, i
nclu
ding
fro
m e
xces
s nu
trie
nts,
has
bee
n br
ough
t to
lev
els
that
are
not
det
rimen
tal
to e
cosy
stem
fun
ctio
n an
d bi
odiv
ersit
y
Tren
ds in
pol
lutio
n 14
.1
Inde
x of
coa
stal
eut
roph
icat
ion
(ICEP
) and
floa
ting
plas
tic
debr
is de
nsity
Targ
et 1
0 -
By 2
015,
the
mul
tiple
Ant
hrop
ogen
ic p
ress
ures
on
cora
l ree
fs,
and
othe
r vu
lner
able
eco
syst
ems
impa
cted
by
clim
ate
chan
ge o
r oc
ean
acid
ifica
tion
are
min
imize
d, so
as t
o m
aint
ain
thei
r int
egrit
y an
d fu
nctio
ning
.
Tren
ds in
pre
ssur
es o
n co
ral
reef
s 14
.3
Aver
age
mar
ine
acid
ity (p
H) m
easu
red
at a
gree
d su
ite o
f re
pres
enta
tive
sam
plin
g st
atio
ns
Targ
et 1
1 - B
y 20
20, a
t lea
st 1
7 pe
r ce
nt o
f ter
rest
rial a
nd in
land
wat
er, a
nd
10 p
er c
ent
of c
oast
al a
nd m
arin
e ar
eas,
esp
ecia
lly a
reas
of
part
icul
ar
impo
rtan
ce f
or b
iodi
vers
ity a
nd e
cosy
stem
ser
vice
s, a
re c
onse
rved
thr
ough
ef
fect
ivel
y an
d eq
uita
bly
man
aged
, ec
olog
ical
ly r
epre
sent
ativ
e an
d w
ell
conn
ecte
d sy
stem
s of
pro
tect
ed a
reas
and
oth
er e
ffect
ive
area
bas
ed
cons
erva
tion
mea
sure
s,
and
inte
grat
ed
into
th
e w
ider
lan
dsca
pes
and
seas
cape
s.
Tren
ds in
are
a of
coa
stal
an
d m
arin
e ar
eas c
onse
rved
14
.5
Cove
rage
of p
rote
cted
are
as in
rela
tion
to m
arin
e ar
eas
Sour
ce: C
BD (2
016b
). Fo
r com
plem
enta
ry a
naly
ses,
see
Rock
strö
m (2
014)
and
HEL
COM
(201
7).
17
3. Preliminary indicators for SDG 14
This chapter provides an overview of the preliminary indicators for SDG 14. It highlights the UN level indicators work proposed by the IAEG-SDGs. It also explores some (non-exhaustive) indicators at the regional level as they better reflect regional challenges of governments.
During the development of the SDG 14 targets under the UN, a decision was made not to consider existing data availability to monitor progress towards these targets as the aim was to be policy relevant first and subsequently to pay attention to the measurement agenda. For this goal, therefore, eight out of 10 indicators are currently not available compared to 58% for all SDGs indicators as listed in Table A8 in Annex 6. The indicators should in fact meet the following criteria: (i) relevant; (ii) methodologically sound; (iii) measurable; (iv) easy to communicate and access; (v) limited in number; and (vi) outcome focused at the global level (UN, 2015b).8 The IAEG-SDGs has classified the global indicators into three categories based on the soundness of methodology and the availability of data (UNSC, 2017c). While the SDG 14 was the only goal with no publicly available data by mid-2016, the United Nations Statistics Division currently provides open access to the two available SDG 14 indicators, namely 14.1.1 (index of coastal eutrophication and floating plastic debris density ) and 14.5.1 (coverage of protected areas in relation to marine areas) (Dunning and Kalow, 2016).9 Without publicly accessible data, citizens and external groups cannot keep United Nation Member States accountable for their progress in implementing the SDG 14 (OECD, 2016e).
The indicator for the target 14.4 is the “proportion of fish stocks within biologically sustainable levels” (FAO, 2011). It is a global indicator, covering about 57% of the global catch. There is currently no data available at country level because (i) fish migrates across areas beyond national jurisdictions; (ii) there can be political sensitivities; and (iii) it is data-intensive and technically demanding as it needs stock assessment (IAEG-SDG, 2016; UNSC, 2017c). Beyond the SDG framework, there are several targets for this indicator. For instance, the World Summit on Sustainable Development proposed reaching 100% by 2015 and the CBD (Aichi Target 6) implicitly propose attaining 100% by 2020 (IAEG-SDG, 2016) (Table 4).
The indicator for the target 14.5 is the “coverage of protected areas in relation to marine areas” (with data provided by UNEP-WCMC). This indicator could be complemented with an additional indicator that aims to recognise the variation of biodiversity importance (benefits) over space (see e.g. Brander et al., 2015). This would help to inform the siting of MPAs, to ensure that adequate attention is given to areas that have highest biodiversity benefits and are under most threat (OECD, 2017a). In addition, a complementary indicator could also measure the effectiveness of protected areas in achieving their objectives, which ultimately depends on a range of management and enforcement factors (OECD, 2017a; OECD, 2017h; MEEM, 2017). In 2017, protected areas cover 13.2% of the marine environment under national jurisdiction (up to 200 nautical miles from shore),
8This is the official criteria defined by the UN for the development of SDG global indicators. In general terms, effective SDG 14 monitoring and implementation requires SMART SDG 14 targets and indicators (OECD, 2015b). 9 Open information sources provide access to knowledge without the need to pay for the knowledge itself, although there may be marginal fees for access (membership in associations, attendance at conferences, subscriptions to journals) (OECD, 2008a).
18
0.25% of the marine environment beyond national jurisdiction and 5.3% of the total global ocean area.
Building on the United Nations global indicator framework, regional indicators should better reflect regional challenges. In this context the work of regional sea conventions e.g OSPAR, HELCOM and Barcelona are relevant as these conventions cover parts of the marine environment. The selected indicators should have (i) face validity, i.e. are related to the main thrust and intention of the relevant target; (ii) discriminatory power, i.e. show a range of performance among regional members while speaking to the country’s reality; (iii) broad availability, covering at least 50-60% of countries for a relatively recent year; and (iv) high statistical quality, i.e. Computed according to internationally accepted standards, guidelines or good practices (OECD, 2017h). Examples of indicators available at the regional level are also provided below and in Table A9 in annex 7. 10 Such analysis will evolve as additional indicators are produced (UNEP, 2014b; Makarenko, 2016; Giraud, 2017; HELCOM, 2007).11
3.1. Examples of Indicators SDG 14.1 - on marine pollution Marine pollution originates from a number of land-based and marine sources, including discharges, agricultural and industrial run-off, urban outfalls, municipal and industrial wastewater, atmospheric deposition, illegal and indiscriminate dumping, accidents (e.g. oils spills) fishing operations, maritime transport and off-shore activities (e.g. seabed mining) (UN, 2017c; UNGA, 2017). As a result, there is relatively large number of indicators that are available to monitor target 14.1.12 Depending on the indicator, only a small subset of countries may be able to provide the information, e.g. the European Union descriptor addressing eutrophication. Other indicators such as the gross phosphorus balance, measuring nutrient input with respect to nutrient output, do not show large variances among developed countries and may not be informative. The data on gross nitrogen balance, in contrast has sufficient variance to be an informative indicator on marine nutrient pollution (The Federal Government of Germany, 2016). Marine pollution is largely land-based but also airborne and that make OECD’s indicators on air emissions of nitrogen oxides, sulphur oxides and particulate matter useful (US EPA, 2015; OECD, 2015f). Shipping emissions in ports for instance, are substantial accounting for 0.4 million tonnes of nitrogen oxides, 0.2 million of sulphur oxides and 0.03 million tonnes of particulate matter (PM10) in 2011 (Merk, 2014; OECD, 2014). Response indicators such as wastewater treatment plants and pressure indicators such as marine litter can be particularly relevant to monitor marine pollution in coastal areas bordering large urban areas, especially in developing countries (UN, 2017b). Response indicators based on policy instruments to tackle marine pollution such as standards and taxes on (nitrogen oxides, sulphur oxides and particulate matter) should also be useful (OECD, 2016f; OECD, 2017d). 10 Annex 8 summarises SDG 14 indicators at the national level for France since this country has made some progress on this topic. 11 Section on the “Marine Environment” of the OECD State of the Environment Questionnaire is awaiting a revision. Some data are available for reporting under MEA. 12 Not every indicator is equally useful in stand-alone. For instance, even though a pressure indicator such as fertilizer consumption is closely related to policy measures, it may conflict with other SDGs addressing food production and poverty reduction, depending on how it is measured (Rickels et al., 2016).
19
SDG 14.2 - on the management, protection and restoration of marine and coastal ecosystems While having a pivotal role among SDG 14 targets, this target is often considered too broad and vague for guiding implementation (Loewe and Rippin, 2015). The goal of ecosystem-based management is to maintain an ecosystem in a healthy, productive and resilient condition so that it can provide the services humans need. Ecosystem-based management differs from current approaches that usually focus on a single species, sector, activity or concern; it considers the cumulative impacts of different sectors (McLeod et al., 2005). Ecosystem-based management has gained international popularity in recent years, but the lack of consensus on its definition has precluded the use of a universal implementation framework (Bianchi and Skjoldal, 2008).13 Without integrated management of all the marine and coastal pressures, damage will be done to coastal ecosystems and their resilience will be reduced (UNGA, 2017). The percentage of coastal and marine development with formulated or implemented ICM and MSP based on an ecosystem approach can be a possible indicator (Rickels et al., 2016; UNEP, 2014a). MSP should be linked to ICM to respect the transitional character and interdependencies of coastal and marine systems (Visbeck et al., 2013). (See also the other GGSD Forum conference Issues Paper “Marine Spatial Planning: Assessing net benefits and improving effectiveness” by Dr. Stephen Jay.) ICM and MSP provide useful policy arenas to frame and resolve spatial conflicts and conflicting interests in the pursuit of coastal resilience. Yet, there is criticism that current MSP models are not capable of addressing the questions MSP raises (Spalding, 2011).14 In any case, in certain regions such as the European Union, the overall variation of an indicator on formulated and adopted ICM and MSP plans is rather low (Rickels et al., 2016). An alternative could be to use indicators on the length of coastal modification and square kilometre of coastal reclamation or on the social and economic losses to hazardous events (OECD, 2016g; Makarenko, 2016). Baltic Marine Environment Protection Commission (HELCOM) proposes an indicator on the proportion of sea areas in a good environmental status with regards to eutrophication, hazardous substances and biodiversity (HELCOM, 2017). See (Annex 7) for detailed information on HELCOM indicators.
SDG 14.3 - on ocean acidification The indicator for SDG target 14.3 can measure actions to minimise and address the impacts of ocean acidification (ICSU, ISSC, 2015). Carbon emission reductions are needed for mitigation. The level of marine acidity is determined by the rate of global carbon emissions; at least as long as local alkalinity management is not considered (Rickels et al., 2016). Policy instruments to tackle air pollution such as tax revenue from all CO2 emissions as a percentage of the gross domestic product and effective carbon rates can be useful as well (OECD, 2016f; UNGA, 2017; OECD, 2017d).
13 There are a large number and variety of principles that make up this approach, as well as diversity in perspectives among key management players (Long et al., 2015). The Conservation of Antarctic Marine Living Resources, for example, has a narrow set of ecological objectives, while the CBD integrates ecological, social and governance objectives (CCAMLR, 2001; CBD, 2011a). While the principles underlying ecosystem-based management will continue to develop, this should not delay its implementation (Long et al., 2015). The International Council for the Exploration of the Sea, for instance, is reviewing which indicators they can supply building on their ecosystem overviews’ assessments (ICES, 2016). While the assessments are mostly done using qualitative information, they should explore the quantitative approach for the next round of ecosystem overviews. 14 Innovation in the management of the oceans’ space would be particularly useful in four areas: the issue of the ‘commons’ and user rights, the need for institutional efficiency and flexibility, the necessary government coordination, and the engagement of all stakeholders at different governance scales, including concerned citizen groups (De Cacqueray, 2012; OECD, 2013a; OECD, 2013b; OECD, 2015c; OECD, 2016a).
20
The indicator for target 14.3 can also measure the impacts of ocean acidification (UNGA, 2017). Ocean acidification effects are not uniform and hence there is a need for local indicators (UN, 2017b). The choice of such indicators is not straightforward. Coral coverage, for instance, would not be the most appropriate indicator since it does not reflect the health of coral reef and coral cover degradation can also be a result of other pressures (Rickels et al., 2016). Since beaches are dependent on the production of sand from marine species producing carbonate minerals, a significant social and economic impact of a possible reduction in carbonate sand production is a cause of potential decrease in supply of sand (UN, 2017b).
SDG 14.4, 14.6 and 14.b - on the sustainable development of fisheries There are three targets, 14.4, 14.6 and 14.b which explicitly focus on the sustainable development of fisheries, including trade-related aspects (UNCTAD, 2017a; UNCTAD, 2017b). Regarding the target 14.4 on effective regulation of fishing, reported global commercial catches have risen over time and are at about 80 million tons annually. In addition, there are large amounts of unreported artisanal and IUU fishing catches (UN, 2017c). There is a close relationship between targets 14.2 and 14.4 since there is a need to have an ecosystem approach to fisheries to integrate exploitation and conservation (Worm et al., 2009). The technical interactions (e.g. bycatch in mixed species fisheries) and the biological interactions (e.g. predator-prey relationships) should be integrated when providing advice on fisheries stock (Cury et al., 2011; Pikitch et al., 2012). Whatever the choice, the indicator framework for this target should be as simple as possible, preferably based on a single metric (Augustyn et al., 2014; MEEM, 2017). Target 14.4 builds on the MDGs and can be quantified through the maximum sustainable yield weighted by the catch in a given country. Whenever available, this indicator is usually preferred to the safe biological limits statistic, since under the latter fish stock renewal is not warranted (EC, 2013; MEEM, 2017). Other issues associated with the indicator on the safe biological limits are that countries share fish stock and it is difficult to assess the situation where some fish stocks are below the safe biological limit and others are not (Rickels et al., 2016). The maximum economic yield is a more conservative measure than the maximum sustainable yield and is used in countries such as United States, Australia and South Africa (MEEM, 2017). SDG 14.5 - on conserving at least 10% of coastal and marine areas MPA coverage, MPAs with management plans and MPAs effectiveness are all relevant indicators for SDG target 14.5. In particular, management effectiveness is one of the most important problems of MPAs due to insufficient resources, multiple jurisdictions, conflict between different activities and users, and lack of awareness (UNGA, 2017). So far, HELCOM proposes the percentage of MPAs having management plans or measures in place (HELCOM, 2017). The OECD has developed harmonised indicators on MPA extent, broken down by IUCN management categories, drawing on the work of UNEP-WCMC (OECD, 2017f).
SDG 14.6 - on fisheries subsidies Fisheries subsidies can have tangible benefits, but can also contribute to overcapacity and overfishing, and can be trade distorting (UNGA, 2017). The international consensus to discipline subsidies is hampered by their technical complexity, political sensitivity and the limited transparency
21
on the nature of the measures (Hege et al., 2014; UN, 2017b).15 As a result, data estimates for fisheries subsidies show large differences (UNCTAD, 2017a). 16 The OECD has developed a classification system for support, and released an inventory of USD 7 billion of budgetary support delivered in 2015 (OECD, 2017c). As it is updated annually, this Fisheries Support Estimate (FSE) database could form the basis of an indicator of progress for target 14.6. The database provides information on transfers to fishers, expenditures on general services and costs recovery charges. The FAO defines small-scale, artisanal fisheries as those that are household based, use relatively small amounts of capital and remain close to shore. However, due to the diverse nature of small-scale fisheries in different countries, there is no globally agreed definition (IAEG-SDG, 2015). Besides, such type of data is rarely included in national catch statistics (UN, 2017c). In fact, this target mainly concerns SIDS and LDCs because of the role of small-scale fisheries in food security.17 In many developing countries, small-scale fisheries provide more than 60% of the protein intake (UNGA, 2017). Trade-related indicators can be useful since small-scale fisheries stakeholders often cannot adapt to, and benefit equitably from, opportunities of global market trends (UN, 2017c). Small-scale fisheries increasingly face significant non-tariff barriers (UNCTAD, 2017b). The Ocean Health Index indicator on artisanal fishing opportunities is a possible indicator since it assesses whether people who need to fish on a small, local scale have the opportunity to do so (Halpern et al., 2012). Given that sustainable fisheries not only involve small-scale fisheries, the International Council for the Exploration of the Sea indicator on fishing mortality could also be considered (Rickels et al., 2016). SDG 14.7 - on economic benefits to SIDS and LDCs Coastal livelihoods and economics, tourism and recreation from the Ocean Health Index can provide some proxy indicators to monitor target 14.7 on the economic benefits to SIDS and LDCs (Halpern et al., 2012). In several developing countries, the ocean-based economy can be about 10% of the gross domestic product (Rickels et al., 2016). Meanwhile, tourism represents over one quarter of the gross domestic product in many SIDS (UNGA, 2017). To account for fisheries sustainability, fishing conforming to the Marine Stewardship Council standards can be compared to the total wild capture production as reported by the FAO. In addition, the OECD has data on official development assistance to fisheries and tourism. This indicator should be assessed against 14.4 (stronger regulation of fisheries), 14.5 (increasing the size of MPAs) and 14.6 (reducing subsidies for fisheries). SDG 14.a - on scientific knowledge and marine technology Although the formulation of target 14.a is quite broad, indicators on specific activities can be used as proxies for monitoring. To measure technology diffusion, indicators on the growth of species occurrence records, accessible through the Global Biodiversity Information Facility or technology diffusion in fisheries from the OECD’s Agricultural and Fisheries Statistics are available. The OECD’s
15 There is a lack of consensus on basic concepts, definitions and prohibitions, official data is fragmented and often information is non-comparable, and there are insufficient incentives for all nations to cooperate regardless of levels of depletion (UNCTAD, 2017b). 16 Since countries can implement substitutes to subsidies by reforming subsidies to different forms, complementary indicators can also be useful (IAEG-SDG, 2015; ICSU, ISSC, 2015). For instance, the indicator landings exceeding total allowable catch can measure how well fisheries regulations are enforced in the European Union (Rickels et al., 2016). 17 Significant numbers of women work on small-scale fisheries and hence disaggregated data would be particularly useful.
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Fisheries and Aquaculture Innovation Platform has data on research networks on the marine environment. The OECD Development Co-operation Directorate produces data on official development assistance to fishery research, waste management and disposal, and on flood prevention and control. To capture whether scientific capacities and advice are part of the policy design, it is possible to use indicators such as the number of marine monitoring stations relative to the exclusive economic zones and the total allowable catches exceedance of scientific advice (Rickels et al., 2016). The public spendings on R&D in fisheries and shipbuilding from the OECD’s Agricultural and Fisheries and Science, Technology and Innovation Statistics (OECD, 2017e) could also be indicators for scientific capacities. Indicators on technology transfer could be included in targets 14.7 and 14.c and on scientific capacities in the SDG 17 (Rickels et al., 2016; UN, 2017b). SDG 14.c - on the rule of law The legal framework for the oceans is complex and a wide range of international and regional legal instruments exist (UNGA, 2017). An indicator for target 14.c could reflect the participation of the different countries in the relevant legal instruments. The United Nations Statistical Commission proposed an indicator on the number of countries ratifying and implementing a range of protocols and conventions.18 For European countries, an alternative indicator on the participation rate in international sea protocols has been proposed, and regional sea protocols fully covering the countries at stake (Rickels et al., 2016) (Table A9 in annex 7). Effective enforcement of the provisions remains a challenge, particularly in SIDS and LDCs.
18 The United Nations Statistical Commission proposed an indicator on the number of countries implementing either legally or programmatically the provisions set out in Regional Seas protocols, and ratifying and implementing the International Labour Organisation Maritime and Fisheries Conventions, progress by countries in the level/degree of implementation of the provisions of the Code of Conduct for Responsible Fisheries and associated guidelines and plans, as reported in the biannual questionnaire surveys, and the number of countries ratifying and implementing the International Maritime Organisation environmental conventions, e.g. the International Convention for the Prevention of Pollution from Ships, the London Convention/Protocol, and the Ballast Water Management Convention.
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4. Possible areas for future OECD work relevant to SDG 14 indicators
This Section puts forward four recommendations for possible future OECD work that could contribute to SDG 14 indicators. Already available OECD indicators, as well as those that will be available in the short-term are discussed. First, contributing to SDG 14 through its work on measurement and indicators could be considered by the OECD. The second recommendation includes developing innovative approaches for SDG 14 data collection, based on new technologies and real-time data. Thirdly fostering common approaches, methodologies and conceptualizations for the valuation of marine ecosystem services and inclusion of marine/maritime activities in national accounts can be considered. A final recommendation focusses on using SDG indicators to inform a review process that takes stock of progress and provides incentives for best practice and peer learning.
Recommendation 1. Contributing to the SDG 14 through OECD’s work on measurement and indicators. With its information base on the environment, green growth and related topics, the OECD can already contribute to several SDG 14 indicators and is well positioned to produce improved and new data for monitoring progress (Table 5). In particular, the OECD is carrying out an update of the FSE database. It is also developing new indicators to monitor policies to fight IUU fishing to contribute to targets 14.4 and 14.6. The OECD is producing harmonised indicators on MPA extent broken down by IUCN management categories, responding to demands to fill this information gap, drawing on the work of the UNEP’s World Conservation Monitoring Centre (OECD, 2017f). The OECD database on Policy Instruments for the Environment (oe.cd/pine) includes some ocean/marine-related policy instruments and could be further developed to capture such policies more systematically. Many of the statistics that are currently available have been included in the OECD Green Growth Indicators database (OECD, 2017d) and in the Environment Statistics database. Depending on the availability of improved data, further indicators could be developed and included in future editions of these and other OECD databases and in related publications (Tables A13 and A14 in annex 9).
Since marine pollution comes to a large extent from land-based sources, data and indicators on pressures such as nitrogen effluents from wastewater in coastal areas and micro-pollutants entering water sources could be further developed by the OECD (OECD, 2012). It is expected that investments in wastewater treatment in developed countries will stabilise, while surface and groundwater quality be restored in most OECD countries by 2050. But, some concerns remain related to diffuse sources of pollution such as runoffs from urban rainwater or agriculture water uses. The situation is projected to deteriorate in non-OECD countries. Micro-pollutants such as medicines, cosmetics, cleaning agents and biocide residues entering water sources are an emerging concern in many developed and developing countries. In addition, the OECD database on Policy Instruments for the Environment includes relevant information, for instance, on taxes on coastal wastewater discharge and on disposable plastic bags, charges on water effluents, grants for salt marshes and tradable permits in the context of fisheries. The database could be better exploited for monitoring SDG14 targets and further expanded to better account for policy instruments directed at prevention of pollutant infiltration, cleaning up of soil and water bodies and oceans and the marine environment more generally.
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Table 5. SDG 14 and examples of relevant OECD work on data and indicators SDG 14 Target Existing OECD data and indicators Data and indicators that the OECD could develop
14.1 marine pollution
Nutrient N, P balance Air emissions of nitrogen oxides, sulphur oxides, particulate matter Water quality River quality Wastewater treatment (% of population connected) Standards- nitrogen oxides, sulphur oxides, particulate matter Taxes – nitrogen oxides, sulphur oxides, pesticides, fertilizers
Nitrogen effluents from wastewater Micro-pollutants Plastic waste generation and recycling % of coastal urban population connected to a wastewater treatment system (cf. “Marine Environment” section of the State of the Environment Questionnaire) Expenditures and policies on prevention of pollutant infiltration, cleaning up of soil and water bodies
14.2 marine ecosystems
Number of threatened species (% of known species) based on an OECD questionnaire in line with the Red List of threatened species
Length of coastal modification Extent of coastal reclamation Direct social and economic costs in coasts and the oceans caused by (natural) disasters Number of countries having adopted and implementing maritime spatial plans Number of countries applying the ecosystem-based management approach Marine relevant policy response indicators based on the OECD Policy Instruments for the Environment database.
14.3 ocean acidification
CO2 emissions (Production-based CO2 productivity Consumption-based CO2 productivity) SOx emissions (total, shipping) Fuel consumption or sales in shipping Tax revenue (% gross domestic product) - all CO2 emissions Effective carbon rates Fossil fuel support
Policy instruments directed at emissions from shipping Effective carbon rates and fossil fuel support accounting for maritime transport
14.4 IUU fishing
- Indicators to monitor expenditures to fight IUU fishing, subsidies that potentially benefit IUU activities, and adoption of best management practices - forthcoming
14.5 conservation
Marine Protected Areas by IUCN management category, based on United Nations Environment World Conservation Monitoring Centre data
Land cover in coastal areas (wetlands, mangroves, …)
14.6 subsidies
Total budgetary support provided to the fishing sector
Change in composition of support to fishers—share of most harmful forms of support in total –forthcoming
14.7 development
Official development assistance (ODA) flows to fisheries and tourism sectors
ODA to sustainable fisheries, aquaculture and tourism as well as ocean conservation and sutainable use Existing data collected on ODA for tourism data could be filtered for marine relevance.
14.a science Fisheries: Technology development and diffusion (based on patent data) Fisheries: R&D spending Shipbuilding: R&D spending Research networks Official development assistance to waste management and disposal; to flood prevention/ control; to fishery research + ocean conservation and sustainable use
Environmentally-relevant marine technology development and diffusion Environmentally-relevant R&D spending in marine sectors
14.b research
- Small-scale fishers in seafood value chains Fish-related non-tariff measures for small-scale fishers
14.c technology
- Participation rate in international and regional marine agreements
Notes: Some of the indicators listed are only indirectly relevant to SDG14, but provide important background information.
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The OECD has started a project with the U.S. on how Pollutant Release and Transfer Registers (PrTR), i.e. a database to store information on emissions of pollutants at facility level, can be used to measure progress with meeting the SDGs (OECD, 2017g). It currently focuses mainly on SDG 12.4 (environmental sound management of chemical and waste) and not on SDG 14.1 as this database does not contain information on the destination of pollutants. Such work could be nevertheless complemented to track chemical pollution on freshwater and oceans. The emissions on sulphur oxides are included in the Environment Statistics database. The impact of the sulphur emission requirements for shipping in the sulphur emission control areas (SECAs) in Northern Europe and North America introduced in 2015 on global trade flows has been negligible. The global sulphur cap of 0.50% for 2020, as decided by the International Maritime Organisation (IMO), will have a more significant effect on shipping costs, which could increase between 20% and 85% (OECD/ITF, 2016). The relatively large margin is due to the uncertainty surrounding the availability of low-sulphur ship fuel. In addition, the Science, Technology and Innovation, and the Development Co-operation Directorates could expand their databases on innovation and official development assistance to account for the weight of a more comprehensive range of marine activities, beyond fisheries, with focus on actives that are environmentally-relevant and promote sustainable management practices.
The OECD is working on improving the evidence base on the costs of natural disasters to align the different data gathering processes with the SDGs. This work concerns the urban delineation of disaster losses, i.e. SDG 11 that seeks to significantly reduce the number of deaths and the number of people affected and substantially decrease the direct economic losses relative to global GDP caused by disasters, including water-related disasters, with a focus on protecting the poor and people in vulnerable situations (OECD, 2016g). This work could be extended to account for the direct social and economic costs in coastal zones and the oceans caused by disasters.
The OECD could contribute to the harmonisation of measurement methodologies. The lack of international harmonisation of measurement methodologies can have implications for interpretation and comparability. The use of marine ecosystem-based indicators by Regional Seas entities is disparate in terms of the different indicators, systems and terminology employed (UNEP, 2014a). The analysis of these indicators highlights different levels of specificity, different rationales for indicator selection, different levels of sophistication and for some parameters the use of qualitative indicator statements. For instance, Regional Seas entities have shared information on target 14.1 on marine pollution (chlorophyll-a and beach litter), and on target 14.2 (integrated coastal zone management).19
The most promising areas of work for the availability of indicators in the short-term building on national statistical and environmental monitoring systems are pollution flows (marine pollution from agriculture and other sources, wastewater treatment in coastal areas), land cover accounts (the OECD as a user of such land cover datasets, could continue developing methodologies for policy-relevant indicators, see OECD, 2017i), and environmental protection and resource management
19 The Regional Seas entities that have shared information are HELCOM, the Mediterranean Action Plan, the Northwest Pacific Action Plan, the Regional Organization for the Protection of the Marine Environment, the Black Sea Commission, The Convention for the Protection of the Marine Environment of the North-East Atlantic, the Caribbean Environment Programme and the South Pacific Regional Environment Programme.
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expenditures accounts, expanding on the OECD work and questionnaire on environmental expenditures, for instance (prevention of pollutant infiltration, cleaning up of soil and water bodies, and protection and rehabilitation of species and habitats) (OECD/Eurostat, 2005; OECD, 2008b; CBD, 2016a). There is a strong demand for expenditure data to i.a, identify financing gaps and to assess the effectiveness of policies (see the CBD financial reporting framework). The United Nations Development Programme’s BioFin (biodiversity finance) project is working with 30 developing countries to help identify expenditure, financing gaps, and to develop biodiversity financing strategies. The OECD could extend its environmental indicators, including land cover, policy response and other expenditure data, as well as relevant data on official development assistance finance flows.
Recommendation 2. Developing innovative approaches for SDG 14 data collection Data should be more reliable, frequent and disaggregated enabling more effective, targeted and innovative public policies (OECD, 2015d; SDSN, 2015a). Numerous developing countries’ statistical offices were unable to collect, analyse and disseminate data for reporting on the 48 MDGs indicators (Loewe and Rippin, 2015). Since the number of SDG indicators is much higher at 244, there is a risk of focusing on less critical or easier to achieve targets (Rickels et al., 2016). Accountability discussions on SDGs should call for the need to support the data revolution. Earth observations, for instance are relevant for SDG 14.1, 14.3 and 14.5 indicators. Technologies like blockchain which facilitates secure online transactions show promise for tracing fish from the boat to the supermarket (target 14.4). Initiatives like Google’s Global Fishing Watch and Pew Charitable Trusts’ Project Eyes on the Seas are using real-time data from vessel transponders and satellite imagery to spot illegal fishing and enable law enforcement (targets 14.4 and 14.5). Drones offer timely data on ocean conditions and fish stocks at a small fraction of existing costs. Such non-traditional sources of data, especially big data have been under-utilized (Maaroof, 2015; see annex 10 on big data and SDG 14). The OECD could further contribute to this research agenda by identifying and assessing, with relevant public and private stakeholders, using promising data sources that have been so far under-utilized in producing official statistics. (OECD, 2015e; OECD, 2016a). Recommendation 3. Fostering common approaches in valuation of ecosystem services in national accounts to implement SDG 14 in synergy with other goals The concept of ecosystem services can support the implementation of the SDG 14 in synergy with other goals (Ntona and Morgera, 2017). It can serve as an organising principle to consider multi-scale and cross-sectoral synergies and trade-offs (van der Belt et al., 2016). The normative goal underpinning ecosystem services is to maintain long-term sustainability, as well as local and immediate enhancement of human well-being within the carrying capacity of the biophysical system (UN, 2016b). This relationship between environmental change and human welfare should be further scrutinised through the lens of equity, an element which was not adequately taken into consideration by the Millennium Ecosystem Assessment (Lele, 2013).
The poor quantification of the value of marine ecosystems restricts the capacity of SIDS and coastal communities to be financially rewarded for their efforts towards sustainable management and conservation of ecosystems (Rustomjee, 2016). Inter-generational equity and the recognition of the intrinsic value of biodiversity are relevant for target 14.4; the equitable management of MPAs is
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relevant for target 14.5 (CBD, 2011b; Wolfrum and Matz, 2000). Besides, the services provided by coastal and marine ecosystems should be linked to a number of SDGs, e.g. SDG 1 (no poverty), SDG 2 (zero hunger), SDG 3 (good wealth and well-being) and SDG 6 (clean water and sanitation) (Wood and DeClerck, 2015).
The OECD could foster common approaches, methodologies and sharing of best practices in the valuation of marine ecosystem services and the integration of marine and maritime activities into national accounts. Based on a review of the conceptual work on the valuation of ecosystem services and of national initiatives in this area, the OECD could also investigate how this knowledge can be applied to the valuation of marine ecosystem services. As part of this work, the OECD is convening a workshop on new approaches to evaluating the ocean economy on 22-23 November 2017. (OECD, 2016h).
Recommendation 4. Providing incentives for best practice and peer-learning on SDG 14 indicators As the OECD has a long history of engagement with major UN processes on human development, financing for development, environmental sustainability and climate change, it is committed to assist countries to generate evidence, identify good practices, develop standards and help and design and implement policies. This can be done through the use of hallmark OECD approaches (e.g. peer reviews and learning; monitoring and statistical reporting; policy dialogue; soft law). https://www.oecd.org/dac/OECD-action-plan-on-the-sustainable-development-goals-2016.pdf. In line with its action plan on SDGs, the OECD will continue to contribute to the development and enhancement of the UN-led Global Indicator Framework for the SDGs, drawing on existing OECD expertise, and help to close data gaps by developing methodologies and capacities in support of the internationally agreed SDG monitoring and evaluation initiatives. In this regard, the OECD can provide further incentives for best practice and peer learning on SDG 14 indicators. https://www.oecd.org/dac/Better%20Policies%20for%202030.pdf
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